Potential toxicity of superparamagnetic iron oxide nanoparticles (SPION).

Nano reviews Pub Date : 2010-01-01 DOI:10.3402/nano.v1i0.5358

Neenu Singh, Gareth J S Jenkins, Romisa Asadi, Shareen H Doak

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引用次数: 921

Abstract

Superparamagnetic iron oxide nanoparticles (SPION) are being widely used for various biomedical applications, for example, magnetic resonance imaging, targeted delivery of drugs or genes, and in hyperthermia. Although, the potential benefits of SPION are considerable, there is a distinct need to identify any potential cellular damage associated with these nanoparticles. Besides focussing on cytotoxicity, the most commonly used determinant of toxicity as a result of exposure to SPION, this review also mentions the importance of studying the subtle cellular alterations in the form of DNA damage and oxidative stress. We review current studies and discuss how SPION, with or without different surface coating, may cause cellular perturbations including modulation of actin cytoskeleton, alteration in gene expression profiles, disturbance in iron homeostasis and altered cellular responses such as activation of signalling pathways and impairment of cell cycle regulation. The importance of protein-SPION interaction and various safety considerations relating to SPION exposure are also addressed.

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超顺磁性氧化铁纳米颗粒的潜在毒性。

超顺磁性氧化铁纳米颗粒(SPION)被广泛用于各种生物医学应用，例如磁共振成像、药物或基因的靶向递送以及热疗。尽管SPION的潜在好处是相当大的，但仍有必要确定与这些纳米颗粒相关的任何潜在细胞损伤。除了关注细胞毒性，最常用的毒性决定因素是暴露于SPION，这篇综述还提到了研究DNA损伤和氧化应激形式的细微细胞改变的重要性。我们回顾了目前的研究，并讨论了SPION在有或没有不同表面涂层的情况下如何引起细胞扰动，包括肌动蛋白细胞骨架的调节、基因表达谱的改变、铁稳态的干扰和细胞反应的改变，如信号通路的激活和细胞周期调节的损伤。还讨论了蛋白质-SPION相互作用的重要性以及与SPION暴露有关的各种安全考虑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nano reviews

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